ATP7A cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	ATP7A
Entrez Gene ID	100470212
Full Name	ATPase copper transporting alpha
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_019808395.1	XP_019663954.1	copper-transporting ATPase 1

Pathways from BioSystems
Gene Ontology

The following ATP7A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP7A cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OAc98624	XM_019808395.1 Latest version!	Ailuropoda melanoleuca ATPase copper transporting alpha (ATP7A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$797.30 $1139.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

ATP7A ( XM_019808395.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019663954.1 Ailuropoda melanoleuca ATPase copper transporting alpha (ATP7A), mRNA.

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CloneID	OAc98624
Clone ID Related Accession (Same CDS sequence)	XM_019808395.1
Accession Version	XM_019808395.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4092bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2016-12-27
Organism	Ailuropoda melanoleuca(giant panda)
Product	copper-transporting ATPase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003218611.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCTTTG ATGCTATTCT CCACAATCCT AATCCTTTCC CTGTTTTAAC TGATACTGTG 
TTTCTGACTG TTGCTGCTTC ACTGGCTGTG CCATGGGACC ATATCCAAAA CACATTGCTC 
AAGACCAAGG GTGTGACGGA CATTAAAATT TCCCCTCAGC AAAGAACTGT AGTGGTGACA 
GTAATTCCTT CTATAGTGAA TGCCAATCAG ATAATAGAGC TGCTTCCAGA TCTCAGTTTA 
GATATTGGAA CTCTGGAGAA AAAGTCAGGA ACTTGTGAAG AATACAGTAT GGCTCAAGCA 
GGTGAAGTTA TGCTGAAGAT GAAAGTAGAA GGGATGACCT GCCATTCATG CACCAGCACC 
ATTGAAGGGA AAATTGGGAA GCTGCAAGGT GTTCAGCGAA TTAAAGTTTC CCTGGACAAC 
CAAGAAGCTA CTATTGTTTA TCAACCTCAT CTGATCACAG CAGAGGAAAT AAAAAGGCAG 
ATTGAAGCTG TGGGCTTTCC AGCATTCATC AAGAAACAGC CCAAGTACCT CAAATTGGGA 
GCTATTGATA TAGAACGCCT AAAGAATACA CCAGTCAAAT CCTCAGAAGG ATCACAGCAA 
AGGAGTCCAT CATATACCAG TGATTCAACA GTCACTTTCA TTATAGATGG CATGCATTGT 
AAATCATGTG TGTTAAATAT TGAAAGTGCT TTATCTACAC TCCAATATGT AAGCAGCATA 
GTAGTTTCCT TAGAGAATAG ATCTGCCATA GTGAAGTACA ATGCAAGCTC AGTCACTCCA 
GAAACCCTGA AAAAAGCGAT AGAGGCCGTG TCACCAGGGC AATATAGAGT TAGTATTTCA 
AGTGAAGTTG AGAGCACCTC AAACTCTCCC TCCAGCTCAT CTCTTCAAAA GATTCCTTTG 
AACATAGCTA GCCATCCTCT GACTCAAGAA ACTGTGATAA ACATTTATGG AATGACTTGT 
AATTCTTGTG TTCAGTCTAT TGAGGGTGTC ATATCAAAAA AGGCAGGTGT AAAATCCATA 
CGAGTATCTC TTGCAAATGG AAATGGGACT GTTGAGTATG ATCCTCTACT AACTACTCCA 
GAAGCCTTGA GAGAAGCAAT AGAAGACATG GGATTTGATG CTGCCTTGTC AGGAATATAT 
TCTGTACTTG TGGCTCTGAT GGCTGGCAAG GCGGAAGTAA GGTATAATCC TGCTGTTATA 
CAACCCCCAA TGATAGCTGA GTTCATCCGA GAGCTTGGAT TTGGAGCCAC TATGATAGAA 
AATGCTGATG AAGGAGATGG TGTTTTGGAA CTTGTTGTGA GAGGAATGAC GTGTGCCTCC 
TGTGTACATA AAATAGAGTC TATCCTCACA AAACACAGAG GGATCTTCTA CTGCTCTGTG 
GCCCTGGCAA CTAACAAAGC ACATATTAAA TATGACCCAG AAATTATTGG TCCCAGGGAT 
ATTATCCATA TGGTTGAAAG CCTAGGTTTT GAAGCTTCTT TGGTCAAGAA GGATCGATCA 
GCAAGCCACC TGGACCATAA ACGAGAAATA AGACAGTGGA GACGGTCCTT CCTTGTGAGC 
CTCTTTTTCT GTATTCCTGT AATGGGGCTG ATGATATATA TGATGGTTAT GGATCACCAT 
CTTGCAGCTC TTCACCATAA TAAGAACATG AGTCAAGAAG AAATGACCAA CATTCATTCT 
TCCATGTTCC TGGAGCGCCA GATCCTGCCA GGATTGTCCA TTATGAATTT GCTATCCTTT 
CTATTGTGTG TACCTGTACA GTTTTTTGGA GGCTGGTACT TCTACATCCA GGCCTACAAA 
GCCCTGAAGC ATAAAACTGC AAATATGGAT GTACTGATTG TGCTGGCAAC CACCATTGCA 
TTTGCCTACT CTTTGGTTAT TCTTCTGGTT GCGATGTATG AAAGAGCCAA AGTAAACCCG 
ATTACTTTCT TTGACACACC TCCTATGCTA TTTGTGTTTA TTGCACTAGG CCGGTGGCTG 
GAGCATATAG CAAAGGGCAA AACATCAGAG GCTCTTGCTA AGCTAATTTC ACTACAAGCT 
ACGGAAGCAA CTATTGTAAC TCTTGACTCT GATAATATTC TCTTAAGTGA AGAACAAGTG 
GATGTGGAAC TCGTACAACG TGGAGACATC ATTAAAGTGG TTCCAGGAGG CAAATTTCCA 
GTGGATGGTC GTGTTATTGA AGGACATTCT ATGGTAGATG AGTCCCTTAT CACAGGGGAG 
GCAATGCCTG TGGCTAAGAA GTCTGGCAGC ACAGTAATTG CTGGTTCCAT TAACCAGAAT 
GGGTCGCTAC TTATCCGTGC AACCCATGTT GGAGCTGACA CAACACTTTC TCAAATTGTT 
AAACTTGTGG AAGAGGCACA AACGTCAAAG GCTCCTATCC AGCAGTTTGC AGACAAACTC 
AGTGGCTACT TTGTTCCTTT TATTGTTATT ATTTCCATCA CTACCCTCTT GGTTTGGATT 
ATAATTGGAT TTCTGAATTT TGAAATTGTG GAAACCTACT TTCCTGGATA TAACAGAAGT 
ATCTCCCGAA CAGAAACGAT AATACGCTTT GCTTTCCAAG CCGCTATCAC AGTTCTGTGC 
ATTGCATGCC CCTGTTCACT GGGACTAGCC ACTCCAACTG CTGTGATGGT GGGTACAGGA 
GTAGGCGCTC AAAATGGCAT ACTAATCAAA GGTGGCGAGC CATTGGAGAT GGCTCATAAG 
GTGAAGGTAG TGGTATTTGA TAAGACCGGA ACCATTACCC ATGGAACCCC AGTAGTGAAT 
CAAGTAAAGG TTCTAGTGGA AAGTAACAGA ATATCACGCA GTAAGATCCT GGCCATCGTG 
GGAACTGCTG AAAGTAACAG TGAACACCCT CTAGGAGCAG CCATAACCAA ATACTGCAAG 
CAGGAGCTGG ATACTGAAAC CTTGGGTACC TGCGTAGATT TCCAGGTTGT GCCAGGCTGT 
GGTATTAGCT GTAAAGTCAT CAATATTGAA GGCTTGCTAC ATAAGAATAA CTGGAAGATA 
GAGGAAAATA ATATTAAAAA TGCATCCCTG GTTCAAATTG ATGCAAGTAA TGAACAGTCA 
TCAACTTCAT CTTCCATGAT TATTGATGCC CAGCTCTCAA ATGCTCTTAA TGCTCAGCAG 
TACAAAGTCC TCATTGGTAA CCGGGAGTGG ATGATTAGAA ACGGTCTTGT TGTTAACAAC 
GATGTAGATG ATTTCATGAC CGAACATGAA AGAAAAGGTC GGACTGCTGT ATTGGTGGCA 
GTTGATGATG AGCTGTGTGG CTTGATAGCT ATTGCTGATA CAGTGAAGCC TGAAGCAGAA 
TTGGCTGTCC ATATTTTGAA ATCTATGGGC TTAGAAGTAG TTCTGATGAC TGGAGACAAC 
AGTAAAACGG CTAGATCTAT TGCTTCTCAG GTTGGCATTA CAAAGGTGTT TGCTGAAGTT 
CTCCCTTCTC ATAAGGTTGC TAAGGTGAAG CAACTTCAGG AGGAGGGGAA ACGGGTTGCA 
ATGGTAGGAG ATGGAATCAA TGACTCTCCA GCCCTGGCGA TGGCTAATGT AGGAATTGCC 
ATTGGCACAG GTACAGATGT AGCCATTGAA GCAGCTGATG TGGTTTTGAT AAGGAATGAT 
CTTCTGGATG TAGTGGCAAG TATTGACTTA TCAAGGAAGA CAGTCAAGAG GATTCGGATA 
AATTTTGTTT TTGCGCTAAT TTATAATCTA GTTGGAATTC CCATAGCTGC TGGAGTTTTT 
ATGCCTATCG GTTTGGTTTT GCAGCCCTGG ATGGGATCTG CTGCAATGGC TGCTTCATCT 
GTTTCAGTAG TACTTTCTTC TCTCTTCCTT AAACTTTATA GAAAGCCAAC TTACGAGAAT 
TACGAACTGC ATGCCCGAAG CCAGATGGGA CAGAAAAGGC CTTCAGAGAT CAGCGTTCAT 
GTTGGAATAG ATGACACCTC GAGAAATTCT CCTAAACTGG GTTTGCTGGA CCGGCTTGTT 
AATTACAGCA GAGCCTCCAT AAATTCACTA CTGTCTGATA AACGGTCCCT AAACAGCATT 
GGGACTGGTG AACCTGACAA GCATTCACTT CTGGTGGGAG ACTGCAGGGA AGATGATGAC 
ACCACGTTGT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_019663954.1
CDS	70..4161
Translation	MGFDAILHNPNPFPVLTDTVFLTVAASLAVPWDHIQNTLLKTKGVTDIKISPQQRTVVVTVIPSIVNANQIIELLPDLSLDIGTLEKKSGTCEEYSMAQAGEVMLKMKVEGMTCHSCTSTIEGKIGKLQGVQRIKVSLDNQEATIVYQPHLITAEEIKRQIEAVGFPAFIKKQPKYLKLGAIDIERLKNTPVKSSEGSQQRSPSYTSDSTVTFIIDGMHCKSCVLNIESALSTLQYVSSIVVSLENRSAIVKYNASSVTPETLKKAIEAVSPGQYRVSISSEVESTSNSPSSSSLQKIPLNIASHPLTQETVINIYGMTCNSCVQSIEGVISKKAGVKSIRVSLANGNGTVEYDPLLTTPEALREAIEDMGFDAALSGIYSVLVALMAGKAEVRYNPAVIQPPMIAEFIRELGFGATMIENADEGDGVLELVVRGMTCASCVHKIESILTKHRGIFYCSVALATNKAHIKYDPEIIGPRDIIHMVESLGFEASLVKKDRSASHLDHKREIRQWRRSFLVSLFFCIPVMGLMIYMMVMDHHLAALHHNKNMSQEEMTNIHSSMFLERQILPGLSIMNLLSFLLCVPVQFFGGWYFYIQAYKALKHKTANMDVLIVLATTIAFAYSLVILLVAMYERAKVNPITFFDTPPMLFVFIALGRWLEHIAKGKTSEALAKLISLQATEATIVTLDSDNILLSEEQVDVELVQRGDIIKVVPGGKFPVDGRVIEGHSMVDESLITGEAMPVAKKSGSTVIAGSINQNGSLLIRATHVGADTTLSQIVKLVEEAQTSKAPIQQFADKLSGYFVPFIVIISITTLLVWIIIGFLNFEIVETYFPGYNRSISRTETIIRFAFQAAITVLCIACPCSLGLATPTAVMVGTGVGAQNGILIKGGEPLEMAHKVKVVVFDKTGTITHGTPVVNQVKVLVESNRISRSKILAIVGTAESNSEHPLGAAITKYCKQELDTETLGTCVDFQVVPGCGISCKVINIEGLLHKNNWKIEENNIKNASLVQIDASNEQSSTSSSMIIDAQLSNALNAQQYKVLIGNREWMIRNGLVVNNDVDDFMTEHERKGRTAVLVAVDDELCGLIAIADTVKPEAELAVHILKSMGLEVVLMTGDNSKTARSIASQVGITKVFAEVLPSHKVAKVKQLQEEGKRVAMVGDGINDSPALAMANVGIAIGTGTDVAIEAADVVLIRNDLLDVVASIDLSRKTVKRIRINFVFALIYNLVGIPIAAGVFMPIGLVLQPWMGSAAMAASSVSVVLSSLFLKLYRKPTYENYELHARSQMGQKRPSEISVHVGIDDTSRNSPKLGLLDRLVNYSRASINSLLSDKRSLNSIGTGEPDKHSLLVGDCREDDDTTL

Target ORF information:

RefSeq Version	XM_019808395.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca ATPase copper transporting alpha (ATP7A), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_019808395.1

ORF Insert Sequence:

ATGGGCTTTG ATGCTATTCT CCACAATCCT AATCCTTTCC CTGTTTTAAC TGATACTGTG 
TTTCTGACTG TTGCTGCTTC ACTGGCTGTG CCATGGGACC ATATCCAAAA CACATTGCTC 
AAGACCAAGG GTGTGACGGA CATTAAAATT TCCCCTCAGC AAAGAACTGT AGTGGTGACA 
GTAATTCCTT CTATAGTGAA TGCCAATCAG ATAATAGAGC TGCTTCCAGA TCTCAGTTTA 
GATATTGGAA CTCTGGAGAA AAAGTCAGGA ACTTGTGAAG AATACAGTAT GGCTCAAGCA 
GGTGAAGTTA TGCTGAAGAT GAAAGTAGAA GGGATGACCT GCCATTCATG CACCAGCACC 
ATTGAAGGGA AAATTGGGAA GCTGCAAGGT GTTCAGCGAA TTAAAGTTTC CCTGGACAAC 
CAAGAAGCTA CTATTGTTTA TCAACCTCAT CTGATCACAG CAGAGGAAAT AAAAAGGCAG 
ATTGAAGCTG TGGGCTTTCC AGCATTCATC AAGAAACAGC CCAAGTACCT CAAATTGGGA 
GCTATTGATA TAGAACGCCT AAAGAATACA CCAGTCAAAT CCTCAGAAGG ATCACAGCAA 
AGGAGTCCAT CATATACCAG TGATTCAACA GTCACTTTCA TTATAGATGG CATGCATTGT 
AAATCATGTG TGTTAAATAT TGAAAGTGCT TTATCTACAC TCCAATATGT AAGCAGCATA 
GTAGTTTCCT TAGAGAATAG ATCTGCCATA GTGAAGTACA ATGCAAGCTC AGTCACTCCA 
GAAACCCTGA AAAAAGCGAT AGAGGCCGTG TCACCAGGGC AATATAGAGT TAGTATTTCA 
AGTGAAGTTG AGAGCACCTC AAACTCTCCC TCCAGCTCAT CTCTTCAAAA GATTCCTTTG 
AACATAGCTA GCCATCCTCT GACTCAAGAA ACTGTGATAA ACATTTATGG AATGACTTGT 
AATTCTTGTG TTCAGTCTAT TGAGGGTGTC ATATCAAAAA AGGCAGGTGT AAAATCCATA 
CGAGTATCTC TTGCAAATGG AAATGGGACT GTTGAGTATG ATCCTCTACT AACTACTCCA 
GAAGCCTTGA GAGAAGCAAT AGAAGACATG GGATTTGATG CTGCCTTGTC AGGAATATAT 
TCTGTACTTG TGGCTCTGAT GGCTGGCAAG GCGGAAGTAA GGTATAATCC TGCTGTTATA 
CAACCCCCAA TGATAGCTGA GTTCATCCGA GAGCTTGGAT TTGGAGCCAC TATGATAGAA 
AATGCTGATG AAGGAGATGG TGTTTTGGAA CTTGTTGTGA GAGGAATGAC GTGTGCCTCC 
TGTGTACATA AAATAGAGTC TATCCTCACA AAACACAGAG GGATCTTCTA CTGCTCTGTG 
GCCCTGGCAA CTAACAAAGC ACATATTAAA TATGACCCAG AAATTATTGG TCCCAGGGAT 
ATTATCCATA TGGTTGAAAG CCTAGGTTTT GAAGCTTCTT TGGTCAAGAA GGATCGATCA 
GCAAGCCACC TGGACCATAA ACGAGAAATA AGACAGTGGA GACGGTCCTT CCTTGTGAGC 
CTCTTTTTCT GTATTCCTGT AATGGGGCTG ATGATATATA TGATGGTTAT GGATCACCAT 
CTTGCAGCTC TTCACCATAA TAAGAACATG AGTCAAGAAG AAATGACCAA CATTCATTCT 
TCCATGTTCC TGGAGCGCCA GATCCTGCCA GGATTGTCCA TTATGAATTT GCTATCCTTT 
CTATTGTGTG TACCTGTACA GTTTTTTGGA GGCTGGTACT TCTACATCCA GGCCTACAAA 
GCCCTGAAGC ATAAAACTGC AAATATGGAT GTACTGATTG TGCTGGCAAC CACCATTGCA 
TTTGCCTACT CTTTGGTTAT TCTTCTGGTT GCGATGTATG AAAGAGCCAA AGTAAACCCG 
ATTACTTTCT TTGACACACC TCCTATGCTA TTTGTGTTTA TTGCACTAGG CCGGTGGCTG 
GAGCATATAG CAAAGGGCAA AACATCAGAG GCTCTTGCTA AGCTAATTTC ACTACAAGCT 
ACGGAAGCAA CTATTGTAAC TCTTGACTCT GATAATATTC TCTTAAGTGA AGAACAAGTG 
GATGTGGAAC TCGTACAACG TGGAGACATC ATTAAAGTGG TTCCAGGAGG CAAATTTCCA 
GTGGATGGTC GTGTTATTGA AGGACATTCT ATGGTAGATG AGTCCCTTAT CACAGGGGAG 
GCAATGCCTG TGGCTAAGAA GTCTGGCAGC ACAGTAATTG CTGGTTCCAT TAACCAGAAT 
GGGTCGCTAC TTATCCGTGC AACCCATGTT GGAGCTGACA CAACACTTTC TCAAATTGTT 
AAACTTGTGG AAGAGGCACA AACGTCAAAG GCTCCTATCC AGCAGTTTGC AGACAAACTC 
AGTGGCTACT TTGTTCCTTT TATTGTTATT ATTTCCATCA CTACCCTCTT GGTTTGGATT 
ATAATTGGAT TTCTGAATTT TGAAATTGTG GAAACCTACT TTCCTGGATA TAACAGAAGT 
ATCTCCCGAA CAGAAACGAT AATACGCTTT GCTTTCCAAG CCGCTATCAC AGTTCTGTGC 
ATTGCATGCC CCTGTTCACT GGGACTAGCC ACTCCAACTG CTGTGATGGT GGGTACAGGA 
GTAGGCGCTC AAAATGGCAT ACTAATCAAA GGTGGCGAGC CATTGGAGAT GGCTCATAAG 
GTGAAGGTAG TGGTATTTGA TAAGACCGGA ACCATTACCC ATGGAACCCC AGTAGTGAAT 
CAAGTAAAGG TTCTAGTGGA AAGTAACAGA ATATCACGCA GTAAGATCCT GGCCATCGTG 
GGAACTGCTG AAAGTAACAG TGAACACCCT CTAGGAGCAG CCATAACCAA ATACTGCAAG 
CAGGAGCTGG ATACTGAAAC CTTGGGTACC TGCGTAGATT TCCAGGTTGT GCCAGGCTGT 
GGTATTAGCT GTAAAGTCAT CAATATTGAA GGCTTGCTAC ATAAGAATAA CTGGAAGATA 
GAGGAAAATA ATATTAAAAA TGCATCCCTG GTTCAAATTG ATGCAAGTAA TGAACAGTCA 
TCAACTTCAT CTTCCATGAT TATTGATGCC CAGCTCTCAA ATGCTCTTAA TGCTCAGCAG 
TACAAAGTCC TCATTGGTAA CCGGGAGTGG ATGATTAGAA ACGGTCTTGT TGTTAACAAC 
GATGTAGATG ATTTCATGAC CGAACATGAA AGAAAAGGTC GGACTGCTGT ATTGGTGGCA 
GTTGATGATG AGCTGTGTGG CTTGATAGCT ATTGCTGATA CAGTGAAGCC TGAAGCAGAA 
TTGGCTGTCC ATATTTTGAA ATCTATGGGC TTAGAAGTAG TTCTGATGAC TGGAGACAAC 
AGTAAAACGG CTAGATCTAT TGCTTCTCAG GTTGGCATTA CAAAGGTGTT TGCTGAAGTT 
CTCCCTTCTC ATAAGGTTGC TAAGGTGAAG CAACTTCAGG AGGAGGGGAA ACGGGTTGCA 
ATGGTAGGAG ATGGAATCAA TGACTCTCCA GCCCTGGCGA TGGCTAATGT AGGAATTGCC 
ATTGGCACAG GTACAGATGT AGCCATTGAA GCAGCTGATG TGGTTTTGAT AAGGAATGAT 
CTTCTGGATG TAGTGGCAAG TATTGACTTA TCAAGGAAGA CAGTCAAGAG GATTCGGATA 
AATTTTGTTT TTGCGCTAAT TTATAATCTA GTTGGAATTC CCATAGCTGC TGGAGTTTTT 
ATGCCTATCG GTTTGGTTTT GCAGCCCTGG ATGGGATCTG CTGCAATGGC TGCTTCATCT 
GTTTCAGTAG TACTTTCTTC TCTCTTCCTT AAACTTTATA GAAAGCCAAC TTACGAGAAT 
TACGAACTGC ATGCCCGAAG CCAGATGGGA CAGAAAAGGC CTTCAGAGAT CAGCGTTCAT 
GTTGGAATAG ATGACACCTC GAGAAATTCT CCTAAACTGG GTTTGCTGGA CCGGCTTGTT 
AATTACAGCA GAGCCTCCAT AAATTCACTA CTGTCTGATA AACGGTCCCT AAACAGCATT 
GGGACTGGTG AACCTGACAA GCATTCACTT CTGGTGGGAG ACTGCAGGGA AGATGATGAC 
ACCACGTTGT AA